A method and an apparatus for transmitting and receiving a feedback signal in a cellular mobile communication system is provided. The method of transmitting feedback in a Cooperative Multi-Point (CoMP) system, includes receiving feedback set information including allocation information of a Channel Status information Reference Signal (CSI-RS) transmitted for estimating a channel of a User Equipment (TIE), receiving IDentification (ID) information for identifying a CoMP set including CSI-RS allocation information from a cell operating in a CoMP mode, extracting the CoMP set using the ID information and a feedback set, detecting a first feedback mode and first feedback timing with a first CSI-RS not included in the CoMP set among CSI-RSs included in the feedback set, and generating and transmitting feedback with respect to the first CSI-RS according to the detected first feedback mode and the first feedback timing.
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4. A method of a base station in a communication system, the method comprising:
transmitting a configuration message including information on a resource for one or more channel status information-reference signal (CSI-RS);
transmitting the one or more CSI-RS based on the information on the resource; and
receiving a feedback message including an index associated with a CSI-RS determined based on a measurement result of the one or more CSI-RS.
1. A method of a terminal in a communication system, the method comprising:
receiving a configuration message including information on a resource for one or more channel status information-reference signal (CSI-RS);
receiving the one or more CSI-RS based on the information on the resource;
determining a CSI-RS among the one or more CSI-RS based on a measurement result of the one or more CSI-RS; and
transmitting a feedback message including an index associated with the determined CSI-RS.
10. A base station in a communication system, the base station comprising:
a transceiver configured to receive and transmit a signal; and
a controller configured to:
transmit a configuration message including information on a resource for one or more channel status information-reference signal (CSI-RS),
transmit the one or more CSI-RS based on the information on the resource, and
receive a feedback message including an index associated with a CSI-RS determined based on a measurement result of the one or more CSI-RS.
7. A terminal in a communication system, the terminal comprising:
a transceiver configured to receive and transmit a signal; and
a controller configured to:
receive a configuration message including information on a resource for one or more channel status information-reference signal (CSI-RS),
receive the one or more CSI-RS based on the information on the resource,
determine a CSI-RS among the one or more CSI-RS based on a measurement result of the one or more CSI-RS, and
transmit a feedback message including an index associated with the determined CSI-RS.
2. The method of
3. The method of
measuring a signal to noise interference ratio (SINR) of the one or more CSI-RS; and
determining the CSI-RS based on the measured SINR of the one or more CSI-RS.
5. The method of
6. The method of
8. The terminal of
9. The terminal of
measure a signal to noise interference ratio (SINR) of the one or more CSI-RS, and
determine the CSI-RS based on the measured SINR of the one or more CSI-RS.
11. The base station of
12. The base station of
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This application is a continuation application of a prior application Ser. No. 14/587,510, filed on Dec. 31, 2014, and will issue as U.S. Pat. No. 9,420,596 on Aug. 16, 2016, which is a continuation application of a prior application Ser. No. 13/625,113, filed on Sep. 24, 2012, which issued as U.S. Pat. No. 8,942,125 on Jan. 27, 2015, and which claimed the benefit under 35 U.S.C. § 119(a) of a Korean patent application filed on Sep. 23, 2011 in the Korean Intellectual Property Office and assigned Serial No. 10-2011-0096603, the entire disclosure of which is hereby incorporated by reference.
Field of the Invention
The present invention relates to a method and an apparatus for transmitting and receiving a feedback signal in a cellular mobile communication system having a plurality of base stations. More particularly, the present invention relates to a method of efficiently transmitting and receiving feedback in a Cooperative Multi-Point (CoMP) system supporting downlink transmission of a User Equipment (UE) by cooperation with the base stations, and an apparatus thereof.
Description of the Related Art
A mobile communication system according to the related art provides a voice-oriented service. However, the mobile communication system has evolved to support high speed and high quality wireless packet data communication capabilities and provides a voice service, a data service, and a multi-media service. Various mobile communication standards such as High Speed Downlink Packet Access (HSDPA), High Speed Uplink Packet Access (HSUPA), Long Term Evolution (LTE), Long Term Evolution Advanced (LTE-A) of the 3rd Generation Partnership Project (3GPP), High Rate Packet Data (HRPD) of 3GPP2, and 802.16 of the Institute of Electrical and Electronics Engineers (IEEE) have been developed. The mobile communication standards are for supporting a high speed and high quality wireless packet data transmission service.
An LTE system is a system developed to efficiently support high speed wireless packet data transmission. The LTE system may maximize capacity of a wireless system using various wireless access technologies.
The LTE-A system is an evolved wireless system of an LTE system and has improved data transmission performance as compared with the LTE system.
A 3rd Generation (3G) wireless packet data communication system, such as HSDPA, HSUPA, and HRPD, uses an Adaptive Modulation and Coding (AMC) scheme and a channel reply scheduling scheme to improve transmission efficiency. According to the AMC scheme and the channel reply scheduling scheme, a transmitter may receive feedback of partial channel state information and apply a suitable modulation and coding scheme at the most efficiently determined time point.
In a wireless packet data communication system to which the AMC scheme is applied, a transmitter may control an amount of transmitted data according to a channel state. That is, if the channel state is not satisfactory, the transmitter may reduce the amount of the transmitted data to reduce a reception error probability to a desired level. If the channel state is excellent, the transmitter may increase the amount of the transmitted data to efficiently transmit a large amount of information while maintaining a reception error probability to a desired level.
In a wireless packet data communication system to which a channel reply scheduling resource management method is applied, a transmitter selectively provides a service to a user having an excellent channel state among a plurality of users. Accordingly, available system capacity in the channel reply scheduling scheme is increased as compared with a scheme of allocating a channel to one user to serve. Such capacity increase refers to a multi-user diversity gain.
When the AMC scheme is used together with a Multiple Input Multiple Output (MIMO) transmission scheme, it may include a function of determining the number of spatial layers of a transmitted signal or a rank. In this case, the wireless packet data communication system to which the AMC scheme is applied simply considers a code rate and a modulation scheme to determine an optimal data transmission rate and whether to transmit how many layers using the MEMO.
It is known in the art that an increase in capacity is expected in an Orthogonal Frequency Division Multiple Access (OFDMA) scheme as compared with a Code Division Multiple Access (CDMA) scheme. One of various reasons for the increase in capacity in the OFDMA scheme is that a frequency domain scheduling may be performed in a frequency axis. As a capacity gain is acquired through the channel replay scheduling scheme due to a channel change characteristic according to a time, if using a characteristic which a channel is changed according to a frequency, additional capacity gain can be obtained. In recent years, research has been performed on an evolution from the CDMA scheme being a multiple access scheme used in 2nd Generation (2G) and 3G mobile communication systems to an OFDMA scheme being a next generation system. 3GPP and 3GPP2 have worked on standardizing an evolved system using OFDMA.
Referring to
A distance between the first UE 102 and the antenna 130 is greater than a distance between the first UE 101 and the antenna 130. A signal from a center antenna 150 of another cell 120 interferes with the reception of a signal from the antenna 130 by the first UE 102. Accordingly, data transmission speed between the first UE 102 and the cell 100 becomes relatively low.
When the cells 100, 110, and 120 independently provide a mobile communication service, a Reference Signal (RS) for estimating a channel is transmitted to measure a downlink channel state of each cell. In a case of a 3GPP LTE-A system, a UE measures a channel state between the UE and a base station using a Channel Status Information RS (CSI-RS) which the base station transmits.
Referring to
A CSI-RS sequence transmitted from locations of CSI-RS antenna ports is defined below in Equation 1 and Equation 2.
In Equation 1 and Equation 2, denotes an OFDM symbol order in one slot, and NCP is determined with 0 or 1 according to a length of a Cyclic Prefix (CP) used in a cell.
In the cellular mobile communication system shown in
The above information is presented as background information only to assist with an understanding of the present disclosure. No determination has been made, and no assertion is made, as to whether any of the above might be applicable as prior art with regard to the present invention.
Aspects of the present invention are to address the above-mentioned problems and/or disadvantages and to provide at least the advantages described below. Accordingly, an aspect of the present invention is to provide a method of constructing a Cooperative Multi-Point (CoMP) scheme based on an Long Term Evolution Advanced (LTE-A) system and transmitting and receiving feedback for efficiently operating the constructed cooperative transmission, and an apparatus thereof.
In accordance with an aspect of the present invention, a method of transmitting feedback in a CoMP system is provided. The method includes receiving feedback set information including allocation information of a Channel Status Information Reference Signal (CSI-RS) transmitted for estimating a channel of a User Equipment (UE), receiving IDentification (ID) information for identifying a CoMP set including CSI-RS allocation information from a cell operating in a CoMP mode, extracting the CoMP set using the ID information and a feedback set, detecting a first feedback mode and first feedback timing with a first CSI-RS not included in the CoMP set among CSI-RSs included in the feedback set, and generating and transmitting feedback with respect to the detected first CSI-RS according to the first feedback mode and the first feedback timing.
In accordance with another aspect of the present invention, a UE for transmitting feedback in a CoMP system is provided. The equipment includes a communication unit receiving feedback information including allocation information of a CSI-RS transmitted for estimating a channel of the UE, and receiving identification information for identifying a CoMP set including the CSI-RS allocation information from a cell operating in a CoMP mode, and a controller extracting the CoMP set using the ID information and a feedback set, a first feedback mode and first feedback timing with respect to the first CSI-RS not included in the CoMP set among the CSI-RSs included in the feedback set, and generating feedback with respect to the detected first CSI-RS according to the first feedback mode and the first feedback timing, wherein the communication unit transmits feedback with the first generated CSI-RS.
Other aspects, advantages, and salient features of the invention will become apparent to those skilled in the art from the following detailed description, which, taken in conjunction with the annexed drawings, discloses exemplary embodiments of the invention.
The above and other aspects, features, and advantages of certain exemplary embodiments of the present invention will be more apparent from the following description taken in conjunction with the accompanying drawings, in which:
Throughout the drawings, it should be noted that like reference numbers are used to depict the same or similar elements, features, and structures.
The following description with reference to the accompanying drawings is provided to assist in a comprehensive understanding of exemplary embodiments of the invention as defined by the claims and their equivalents. It includes various specific details to assist in that understanding but these are to be regarded as merely exemplary. Accordingly, those of ordinary skill in the art will recognize that various changes and modifications of the embodiments described herein can be made without departing from the scope and spirit of the invention. In addition, descriptions of well-known functions and constructions may be omitted for clarity and conciseness.
The terms and words used in the following description and claims are not limited to the bibliographical meanings, but, are merely used by the inventor to enable a clear and consistent understanding of the invention. Accordingly, it should be apparent to those skilled in the art that the following description of exemplary embodiments of the present invention is provided for illustration purpose only and not for the purpose of limiting the invention as defined by the appended claims and their equivalents.
It is to be understood that the singular forms “a,” “an,” and “the” include plural referents unless the context clearly dictates otherwise. Thus, for example, reference to “a component surface” includes reference to one or more of such surfaces.
Herein, detailed description of exemplary embodiments of the present invention is made in the context of a wireless communication system based on Orthogonal Frequency Division Multiple Access (OFDM), more particularly, a 3rd Generation Partnership Project (3GPP) Evolved Universal Terrestrial Radio Access (EUTRA) standard. However, the concepts discussed herein are applicable to other communication systems having similar technical background and channel forms by applying variations and modifications falling within the spirit and scope of the present invention, and it will become apparent to those skilled in the art.
A cellular mobile communication system includes a plurality of cells constructed in a limited zone. Base station equipment performing mobile communication in each cell provides a mobile communication service to User Equipment (UEs) in the cell. In this case, a certain UE is known as a system for receiving support of a mobile communication service from only one semi-static determined cell. Hereinafter, such a system is referred to as anon-Cooperative Multi-Point (CoMP) system.
A data transmission rate provided to UEs existing in a cell may be changed according to a relative location of a UE in a cell in a non-CoMP system. That is, a UE located in the center of a cell may receive a high data transmission rate, hut a UE located relatively close to a cell edge may not receive the high data transmission rate.
A CoMP system is known as a contrast system in the art. To support a UE located in an outer peripheral portion of a cell in the CoMP system, a plurality of cells cooperate with each other to transmit data. In this case, in comparison with the non-CoMP system, an improved mobile communication service may be provided. The present exemplary embodiments suggest a feedback method and an apparatus thereof in consideration of a Dynamic cell Selection (DS) scheme and a Joint Transmission (JT) scheme among CoMP systems. In this case, the DS scheme refers to a scheme in which a UE measures a channel state by cells to select a cell having an optimal channel. The JT scheme refers to a scheme which a plurality of cells simultaneously transmit data to a certain UE. According to the present exemplary embodiments, for example, the foregoing problems may be addressed by improving a feedback structure so that a DS scheme or a JT scheme is efficiently applied to a Long Term Evolution (LTE)-system.
Referring to
The central control unit 330 is a device capable of transmitting and receiving data to and from UEs 301, 302, 311, 321, and processing the transmitted and received data. A macro base station may refer to a central control unit when respective transmission points 340, 350, and 360 is an RRH having a cell identification with a macro base station in common. A device for integrally managing respective cells may be referred to a central control unit when respective transmission points 340, 350, and 360 are a macro or pico cell having different cell IDs.
Referring to
Referring to
Referring to
For example, it is assumed that the feedback set is {1, 2, 3} and the CoMP set is {1, 2}. In this case, the base station may report an ID itself of a CSI-RS included in the CoMP set to the UE separately from a feedback set, and report the CoMP set by transferring a sequence of [1, 1, 0] together with the feedback set. For example, it may be engaged that only a feedback set part corresponding to a part corresponding to 1 from the sequence is included in the CoMP set. The base station may report information capable of identifying a CSI-RS not included in a CoMP set among CSI-RSs included in the feedback set to the UE. In this case, the UE may recognize a remainder achieved by subtracting a CSI-RS reported which is not included in the CoMP set from the feedback set. A reason to separately set the feedback set and the CoMP set is because a CSI-RS resource for control information and system information such as a resource 404 of
Feedback with respect to a CSI-RS resource not included in the CoMP set may have respective feedback modes by resources, and a common feedback mode. That is, feedback with respect to the CoMP set and feedback with respect to resources other than the CoMP set operate in different modes. An example of the CoMP set will be described below. Feedback with respect to the Number 3 CSI-RS resource other than a CoMP set in the feedback set {1, 2, 3} may include wideband Channel Quality Indicator (CQI)/Precoding Matrix Indicator (PMI), Rank Indication (RI) or may additionally include a subband CQI. Feedback with respect to the CoMP set {1, 2} may include an index of a cell which a UE prefers and wideband CQI/PMI, RI corresponding to the cell or additionally include a subband CQI. Here, there may be one or a plurality of preference cell indexes.
To transmit each feedback information to a base station, when using periodic feedback through a Physical Uplink Control Channel (PUCCH), periods of information with respect to a CoMP set and a period of information with respect to a CSI-RS resource other than a CoMP set may be separately allocated. When transmitting timings of respective information collide with each other, feedback is performed according a preset priority. For example, feedback with respect to a resource other than a CoMP set used for receiving a control channel has the highest priority and a cell index preferring respect to a CoMP set may have the second highest priority. Next, RI, wideband CQI/PMI subband CQI with respect to a CoMP set may have higher priorities in an order of the RI, the wideband CQI/PMI, and the subband CQI. This is a method of having preference to information influencing UE scheduling. If an optional cell index cannot be sent due to a collision of transmission timing, information such as CQI/PMI, RI with respect to the timing may engage to feedback information with respect to a preset cell index. For instance, the preset cell index may be a minimum index among a CoMP set. The base station informs the UE of the CoMP set together with the preset cell index. An optimal cell index transmitted in previous timing may be as the preset cell index.
To transmit each feedback information to a base station, when using non-periodic channel information feedback through a Physical Uplink Shared CHannel (PUSCH), all information with respect to CSI-RS resources in the feedback set may be fed back at a time, or information with the CoMP set and information other than the CoMP set may be fed back at a time in consideration of the CoMP set. An example of the CoMP set is described. When non-periodic channel information feedback through PDCCH information is activated, the UE may feedback all of the RI, the CQI, and the RMI with respect to three CSI-RSs in the feedback set {1, 2, 3} at a time. As another method, the UE may feedback an optimal cell index with respect to the CoMP set and associated RI, CQI, PMI together RI, CQI, and PMI with respect to a cell 3 other than the CoMP set at a time in consideration of the CoMP set {1, 2}. The reason to use such a method is because more bits in a case of non-periodic channel information feedback may be fed back at a time as compared with a case of periodic feedback. As still another method, a central processing unit simultaneously transmits a specific index in the feedback set while activating non-periodic channel information feedback through a PDCCH to feedback RI, CQI, and PMI with respect to a CSI-RS corresponding thereto to the UE. In this case, a bit confirming which feedback of CSI-RS resource is transmitted to added to downlink control channel information. According to the scheme, the system may use a feedback resource in a dynamic scheme.
The UE confirms a feedback mode and a feedback period (timing) with respect to a CoMP set and a CSI-RS other than the CoMP set at step 502. For example, the feedback mode and the feedback timing may be transmitted through upper signaling. The UE performs feedback with respect to a CSI-RS other than a CoMP set according to the feedback mode and the feedback timing at step 503. The HE determines whether a feedback mode with respect to the CoMP set is a feedback mode for DS at step 504. That is, the UE determines whether the feedback mode with respect to the CoMP set is a feedback mode requesting transmission of preference cell information. In the feedback mode for DS, during feedback transmission, transmission of the preference cell information is required. When the feedback mode with respect to the CoMP set is not the feedback mode of DS, the process goes to step 515. The HE performs a feedback operation for JT or other CoMP technology at step 515. When the feedback mode with respect to the CoMP set is the feedback mode for DS, the process goes to step 505. The UE estimates each channel from a plurality of cells using a CSI-RS resource in the CoMP set at step 505. After that, the HE calculates a Signal-to-Interference-plus-Noise-Ratio (SINK) of each cell or other channel quality index and selects at least one optimal cell in consideration of an additional cell situation at step 506. If the optimal cell is selected at step 506, the UE feedbacks channel information associated with the selected optimal cell index suited to feedback timing corresponding to the CoMP set to the central control unit 330 at step 507. As described above, according to a modified exemplary embodiment, the feedback timing with respect to channel information associated with the optimal cell index may differ from feedback corresponding to the CoMP set. Such feedback timing may differ from feedback timing with respect to a CSI-RS resource other than the CoMP set.
Referring to
To transmit each feedback information to a base station, periodic feedback through a PUCCH may be used. In this case, periods of information with respect to the CoMP set and periods of information with respect to a CSI-RS resource other than the CoMP set may be independently allocated. When transmitting timings of respective information that collide with each other, feedback is performed according a preset priority. For example, feedback with respect to a resource other than a CoMP set used for receiving a control channel has the highest priority and an RI with respect to each resource in the CoMP set, wideband CQI/PMI, a subband CQI may have the second highest priority. Feedback for cooperative transmission may have the lowest priority. This is a method of having preference to information influencing UE scheduling.
Phase information connecting a PMI of each cell may be used as feedback for cooperative transmission. In this case, when a PMI of a specific cell is not sent due to collision of transmission timing, it may be engaged that phase information with respect to the latest PMI with respect to the specific cell is fedback. It may be engaged that phase information with respect to a default PMI is fedback. To transmit each feedback information to a base station, when using non-periodic channel information feedback through a the UE may feedback all information with respect to a CSI-RS resource in the feedback set at a time. The UE may feedback information with respect to the CoMP set and information other than the CoMP set at a time in consideration of the CoMP set.
When non-periodic channel information feedback through a PDCCH is activated, the UE may feedback all of RI, CQI, PMI with respect to three CSI-RSs in a feedback set {1, 2, 3}. As another scheme, the UE may feedback RI, CQI, PMI with respect to each CSI-RS resource and RI, CQI, PMI with respect to cooperative transmission in the CoMP set together with RI, CQI, PMI with respect to a cell 3 except for the CoMP set in consideration of the CoMP set {1, 2}. The reason to use such a scheme is because more bits in a case of non-periodic channel information feedback may be fedback at a time as compared with a case of periodic feedback. As another scheme, a central processing unit may transmit a specific index in a feedback set while activating non-periodic channel information feedback through a PDCCH to feedback RI, CQI, and PMI with respect to a corresponding CSI-RS. In this case, a bit confirming whether to transmit feedback with respect to any CSI-RS resource must be added to the PDSCH activating non-periodic channel information feedback. According to the scheme, the system may use a feedback resource in a dynamic method.
The UE confirms a feedback mode and a feedback period (timing) with respect to a CoMP set and a CSI-RS other than the CoMP set at step 602. The feedback mode and the feedback timing may be transformed, for example, through upper signaling. The UE performs feedback with respect to the CSI-RS other than the CoMP set at step 603. The UE determines whether a feedback mode with respect to the CoMP set is a feedback mode for JT at step 604. That is, the UE determines whether a feedback mode with respect to the CoMP set is a feedback mode requiring transmission of information for cooperative transmission. In the feedback mode for JT, information for cooperative transmission must be transmitted during feedback. If the feedback mode with respect to the CoMP set is not the feedback mode for JT, the process goes to step 615. The UE performs a feedback operation for DS or other CoMP technology at step 615. If the feedback mode with respect to the CoMP set is the feedback mode for JT at step 604, the process goes to step 605. The UE estimates each channel from a plurality of associated cells using a CSI-RS resource in the CoMP set at step 605.
After that, the UE determines feedback with respect to each cell and feedback for JT in consideration of a channel with respect to each cell and a channel with respect to simultaneous transmission at step 606. Here, the feedback for JT may be CQI, RI, and PMI for cooperative transmission or phase information for connection of a PMI with respect to each channel as described above. If the feedback is determined at step 606, the UE, the UE feedbacks channel information for each cell and JT suited to feedback timing corresponding to the CoMP set to the central control unit 330 at step 607. As described above, feedback timing corresponding to the CoMP set may differ from feedback timing with respect to channel information associated with an optimal cell index.
Referring to
The communication unit 710 performs a function of transmitting or receiving data. Here, the communication unit 710 may transmit channel information for a CoMP technology to the central control unit 330 under the control of the controller 720.
The controller 720 control states and operations of one or more constituent elements of the UE. Here, the controller 720 may select feedback information for an optimal cell or cooperative communication, and feedback channel information with respect to the selected cell to the central control unit.
The controller 720 includes a channel estimator 730. The channel estimator 730 determines information associated with the CoMP set received from the central control unit and feedback information used with respect to each CSI-RS through a feedback mode, and estimates a channel using a CSI-RS received according thereto. The channel estimator 730 may control the communication unit 710 to feedback channel information associated with the CoMP to the central control unit.
Here, the foregoing exemplary embodiment has illustrated that the UE includes the communication unit 710 and the controller 720. However, the present invention is not limited thereto. For example, the UE may further include various constituent elements according to a performed function in the UE. For example, the UE may include a display unit displaying a current state of the UE, an input unit to which a signal such as execution of a function from the user is input, and a memory storing data generated by the UE.
Referring to
The controller 810 controls states and operations of one or more constituent elements of the central control unit. Here, the controller 810 allocates a CSI-RS of each cell for estimating a channel of the UE to resources and allocates a CoMP set and informs the UE of associated information if necessary.
The controller 810 includes a resource allocator 830. The resource allocator 830 allocates a CSI-RS to respective resources such that the UE may estimate a channel of each cell, and transmits a CSI-RS using a corresponding resource. Resources allocated to the respective cells are allocated corresponding to a. CSI-RS for estimating a channel of each cell. A set including a resource to which at least CSI-RS transmitted for channel estimation of a CoMP UE is allocated refers to a feedback set.
The communication unit 820 performs a function of transmitting and receiving a cell and data which the UE or the communication unit 820 manages. Here, the communication unit 820 transmits a CSI-RS to the UE through an allocated resource and receives feedback with respect to channel information from the UE under control of the controller 810.
According to an exemplary embodiment of the present invention, neighboring cells for a UE located in an outer peripheral portion of a cell in a cellular mobile communication system may cooperate with each other to transmit data through CoMP between cells. Cells in the cellular mobile communication system may employ an improved mobile communication service as compared with a case where cells do not cooperate. If the UE is located in an outer peripheral portion of a cell, the UE may dynamically determine a cell to which the UE will transmit. In addition, a plurality of cells may simultaneously provide information to a UE located in an outer peripheral portion of the cell to increase an information receiving rate of the UE. Through this, all UEs in a cellular mobile communication system may acquire a uniformly high data transmission rate regardless of a relative location in the cell.
While the invention has been shown and with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined in the appended claims and their equivalents.
Kim, Younsun, Lee, Hyojin, Lee, Juho, Kim, Kiil
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